"""Adds a new token to the token symbol index .. moduleauthor:: Louis Holbrook .. pgp:: 0826EDA1702D1E87C6E2875121D2E7BB88C2A746 """ # standard imports import sys import os import json import argparse import logging import hashlib # external imports import chainlib.eth.cli from chainlib.chain import ChainSpec from eth_erc20 import ERC20 from chainlib.eth.address import to_checksum_address # local imports from eth_token_index import TokenUniqueSymbolIndex logging.basicConfig(level=logging.WARNING) logg = logging.getLogger() default_format = 'terminal' script_dir = os.path.dirname(__file__) data_dir = os.path.join(script_dir, '..', 'data') arg_flags = chainlib.eth.cli.argflag_std_write | chainlib.eth.cli.Flag.EXEC argparser = chainlib.eth.cli.ArgumentParser(arg_flags) argparser.add_argument('token_symbol', type=str, nargs='?', help='Token symbol to return address for') args = argparser.parse_args() extra_args = { 'token_symbol': None, } config = chainlib.eth.cli.Config.from_args(args, arg_flags, extra_args=extra_args, default_fee_limit=TokenUniqueSymbolIndex.gas()) #wallet = chainlib.eth.cli.Wallet() #wallet.from_config(config) rpc = chainlib.eth.cli.Rpc() conn = rpc.connect_by_config(config) chain_spec = ChainSpec.from_chain_str(config.get('CHAIN_SPEC')) def out_element(e, w=sys.stdout): if config.get('_RAW'): w.write(e[1] + '\n') else: w.write(e[1] + '\t' + e[0] + '\n') def element(ifc, conn, contract_address, token_symbol, w=sys.stdout): o = ifc.address_of(contract_address, token_symbol) r = conn.do(o) a = ifc.parse_address_of(r) out_element((token_symbol, a), w) def ls(ifc, conn, contract_address, token_ifc, w=sys.stdout): o = ifc.entry_count(contract_address) r = conn.do(o) count = ifc.parse_entry_count(r) logg.debug('count {}'.format(count)) for i in range(count): o = ifc.entry(contract_address, i) r = conn.do(o) token_address = ifc.parse_entry(r) o = token_ifc.symbol(token_address) r = conn.do(o) token_symbol = token_ifc.parse_symbol(r) element(ifc, conn, contract_address, token_symbol, w) def main(): token_ifc = ERC20(chain_spec) ifc = TokenUniqueSymbolIndex(chain_spec) contract_address = to_checksum_address(config.get('_EXEC_ADDRESS')) if not config.true('_UNSAFE') and contract_address != add_0x(config.get('_EXEC_ADDRESS')): raise ValueError('invalid checksum address for contract') token_symbol = config.get('_TOKEN_SYMBOL') if token_symbol != None: element(ifc, conn, contract_address, token_symbol, sys.stdout) else: ls(ifc, conn, contract_address, token_ifc, sys.stdout) if __name__ == '__main__': main()